Applications in this field are in biomedical, communications, industrial control, analytical instruments, image processing, consumer electronics, computer networks and automation. Such applications vary from digital, analog, micro-processor based, or very large scale integrated circuits (VLSI). Graduates will lead development and design of leading-edge information systems, particularly in the telecommunications area. As the development of new electronic, information and telecommunication equipment, such as Internet, computers and electronic controlled devices, become more in demand in the government and private sectors so has the employment opportunities for an information and telecommunications engineer are increasing.

OBJECTIVES:

Provide the students with an education in the fundamentals of electronics engineering that will allow students to be immediately competitive in industry or in graduate work while providing him with the best opportunity for achieving his full potential during his lifetime;

Develop a sense of professional responsibility and social awareness; and

Provide practical applications as evidenced by laboratory, design, project study, computer exercises and practicum courses. These would help the students to work well whether independently or as part of a group.

PROGRAM EDUCATIONAL OBJECTIVES:

In three (3) to five (5) years, The graduates of the BS in Electronics Engineering should be able to:

Perform exemplary in their careers through their firm foundation in basic mathematical and scientific knowledge and profound understanding of the fundamental principles and disciplines of electronics engineering.

Implement proper engineering principles in their measures, models and design of electronic and communication systems.

Formulate and execute engineering projects with their professional skills for effective and efficient management.

Apply ethical standards, exhibit confidence and motivation for continuous learning crucial for their professional growth in their selected careers.